Conteol signal modifying means in



LIGHT Feb. 23, 1954 o. H. scHucK AL MODIFYING MEANS IN RADIO CONTROLLED F CONTROL SIGN Filed Aug. 6

AMPLIFIER INVENTOR. OSCAR HUGO SCHUCK ATTORNEY Patented Feb. 23, 1954 2,670,455 I CE CONTROL SIGNAL MODIFYING MEANS IN RADIO CONTROLLED FLIGHT Oscar Hugo Schuck, Min to Minneapolis-Honey pany, Minneapolis, M

Delaware eapolis, Minn., assignor well Regulator Com inn., a corporation of Application August 6, 1951, Serial No. 240,597 9 Claims. 318-19) The present invention is concerned with an electro-mechanical mechanism for adjusting a control apparatus and rendering the control apparatus ineffective when adjustment is being made. More particularly, the invention is concerned with a change-over mechanism for an electrical control signal producing apparatus wherein it is desired that the output signal of the apparatus be eliminated while adjustment is being made on the control apparatus.

There is disclosed in my copending application, Serial No. 33,608, filed June 17, 1948, an aircraft flight control system wherein an aircraft is automatically controlled to fly along a preselected flight plan comprised of several legs or sections. In this copending application, the control system justed to cause the craft to fly along the next leg of the flight plan. The present invention is provided to accomplish automatically the changeover or readjustment of the control apparatus upon the completion of the individual legs of the make the readjustment without any sudden variation of the flight controls of the controlled craft.

It is therefore an object of the present invention to provide an automatic change-over mechanism for a control apparatus wherein the output from the control apparatus is modulatingly rendered inefiective while adjustments are being made in the control apparatus.

Another object of the present invention is to provide an automatic change-over mechanism the control apparatus.

A further object of the present invention is to provide an automatic change-over mechanism to a maximum position wherein the switch 2 mechanism is reconditioned for further operation.

A still further object of the present invention is to provide a change-over mechanism for a control apparatus wherein drives a first motor through an amplifier and an where a second control signal is connected to the amplifier and the amplifier is in turn connected to a second motor which readjusts the control apparatus; whereupon the first motor drives the output control to a maximum.

These and other objects of the present invention will be understood upon considering the specification and the accompanying drawing.

Referring to the drawing, the numeral l0 rep resents a combined computer and coupler unit of the type shown in my above mentioned copending application.

adjusting the control apparatus in a desired manner. The apparatus is also shown to have an input shaft I 2 which is also used to adjust elements within the apparatus ID. The output from the control apparatus I0 is in the form of an electrical signal which is directly applied to the end terminals of a gain control potentiometer [3. This gain control potentiometer has a slider 14 which determines the magnitude of the electrical signal that will appear upon the output terminals I 5. The electrical signal on the output terminals l5 may be fed into any suitable automatic pilot apparatus, not shown.

An indicator 29 is arranged to indicate the magnitude of an output signal appearing on terminals XX of not the control signal for the automatic pilot appearing on terminals I 5. This indication may be in terms of miles or the like as shown in my above mentioned copending application.

When an indicating needle 2! of the indicator 20 reaches a predetermined position, it is operative to close a control switch 22. This control switch 22 is associated with a manually operated switch 23 of the single pole double throw type. The switch 22 cooperates with the switch 23 to control the energization of a relay 24, which comprises a relay coil 25, a pair of switch blades 26 and 21, normally biased into engagement, when the relay coil contacts 28 and 29: when the relay coil is energized, the switch blade 21 engages an associated contact 30.

The relay 2 5 controls the energization of a transfer relay 35 which comprises a relay coil 36, and a switch blade 3? normally biased into engagement with an associated contact 38, by means not shown, and out of engagement with an associated contact 35. This relay is arthe control apparatus l0 which is ranged to select a desired output signal from a signal producing network 4%. This signal producing network is energized by a transformer 4! having a primary l2 and a secondary it which has a tap at l i. Connected between the tap Jill and the right hand terminal of secondary 43 is a speed selecting potentiometer Connected between the left hand terminal of the secondary 413 and the tap 4:1. is a further speed potentiometer 45. Connected to the slider of potentiometer 45 is a summing resistor ll and connected to the slider of potentiometer :36 is a summing resistor 48.

Also controlling the energir'mg circuit for the transter relay 35 is a lockout amplifier 5!. which is connected in controlling relation to a lookout relay 5;, The relay 5i comprises a relay coil 52 and a switch blade normally biased, by means not shown, into engagement with an associated contact and out of engagement with an associated cont-act 5.5. A signal indicating lamp 56 is arranged to be energized when the lookout in the deenergized position. The lockout am er be of the type disclosed in my above "mentioned application, said type energizing the relay El only when there is no input signal therefor.

For adjusting the slider it of the gain potentiometer it, a gain-control motor to is provided. This motor 8.8 is oi. the two phase reversible type having a line field winding 5! and an amplifier field winding .52.. .A rotor 53 is arranged to drive the sitter it through a suitable gear train ti l. The mote" u an an er $15 which may be of the type shown 'inthe Alb rt P, Upton patent, 2,423,534, issued .J-ury d, 1%7. The gain-control motor Bil also drives a ave. cit-y generator or dynamic transformer 65 3 ch has an energizing winding El and an output winding 63. The operation of the velocity generator :33 is such that the voltage induced in the secondary winding, for any value of primary voltage. has the same frequency as the pr mary voltage, and varies in amplitude and rein phase with variation in the speed and reversal in the direc on of rotation of the rotor. Eonneeted to one end of the output winding -68 is a summing resistor $9. The amplifier 55 is also arranged to energize va change-over motor is which of the two phase reversible type and has .a line energi-z' winding 'iI and an amplifier winding '12. This motor 39 is connected to drive the shaft 112 of the control apparatus Ii! through a suitable train 13. The motor it is also arranged to drive a velocity generator 15 similar to velocity generator 36 and having an energizing winding and output winding is, th latter of which is connected to a suitable summin resistor 1:9.

For determining whether the amplifier 85 is to-xlriye the gain-control motor or the changeover :motor '58, a changeover relay 85 is provided. This change-over relay comprises a relay coil 85 and a plurality of switch blades ill, 38, 89, normally biased, by means not shown, when the relay coil is .deenergised, into engagement with as sociated contacts all, and s2 and out or engagement with associated contacts to, 9d, and S 5, respectively.

The signal source for the control signal to drive the change-over motor is the control transformer synchro Hit which comprises .a three winding stator tilt and an output winding I62 on a suitable rotor, not shown, whichis arranged to be adjusted by the change-over motor 10. The

receives its energizing power from 5.5., conductor I til,

stator IliI is adapted to be connected to one of a plurality of generator synchros I03 and IM through stepping switches I65, I05, and I01. These steppin switches are arranged to be moved by a suitable mechanism, not shown, actuated by a stepping relay coil IE8.

The stepping coil H18, in addition to operating upon switches I85, Hi6, and Itl, also selects further variables which may be adjusted by manual knobs lI within the control apparatus Ill. The sudden selection of these further variables Without a corresponding adjustment of the shaft I2 may cause a large unbalance signal to appear on the potentiometer i3, and it is this unbalance which may cause unduly large changes in the input to the apparatus connected to terminal 15.

The energizing circuit for the stepping relay coil IE8 is controlled by a thermal time delay relay H0 which comprises a heater HI which operates upon a bimetal H2. When the bimetal H2 has been heated for a predetermined length of time a switch blade 5 It is moved out or engagement with an associated contact us and is latched out of engagement by a suitable latching mechanism 8 it. This energizing circuit for the stepping relay is also controlled by a low gain limit switch assembly i2!) which comprises a pivoted switch blade assembly carrying a pair of blades l2! and 22 which are normally biased out oi engagement with contacts I23 and I24 respectively by a tension spring I25 which forces the blade ass-e1- bly against a stop E26 until the slider it reaches the low limit position when the blade assembly is rotated and the switch blades and their associated contacts come into engagement.

Actuated when the slider M of the gain potentiometer I3 is in the high gain position is a high limit switch assembly I29. This assembly comprises a pivoted blade I36 which is associated with a contact I3I: when the slider It is not in the high gain position, the blade I30 is moved out of engagement with the contact I31 by means of the tension spring I32 and the blade its moves into engagement with a stop I33. When the blade 13% is moved into engagement with contact I3I, a mechanical connection between the blade I38 and the latch I I5 of the thermal time delay relay It!) causes the latch to move to the released position so that the blade H3 of the delay relay can move into engagement with its associated contact Ms.

Operation In considering the operation of the present anparatus, assume first that the system is energized and that there has not yet been an indication of a need fora change in the settin of the shaft 2 or the control apparatus Iii. Under this assumed set of conditions, the output signal on the winding I82 of the control-transformer synch-ro Itil is zero and this means that the lookout amplifier 5B is maintaining the lookout relay 5| in the energized position, so that switch blade '53 is an engagement with switch contact 55. The relay it will bein a deenergized position as its energizing circuit is not closed. Since the relay 2a is deenergized, the transfer relay 35 .is energized throusha circuit that may be traced from positive terminal .1 5 of a power supp y c nnected to switch blade .53., throu h switch Contact switch contact 28, switch blade 25., conductor .I M relay coil 35, and ground back to the negative terminal I65 associated with the blade53. When the transfer relay 35 is enthe change-over relay 85,

lay

ergized-the switch blade 31engages contact'39'.

Inasmuch as there is no energizing circuit for the switch blades associated therewith are in the deenergized position so that blade 31 is engaging contact 90, blade 88 is engaging contact SI and blade 89 is engaging contact 02. Further, under the assumed conditions, the slider I4 is in the high gain position so that the maximum output signal from the control apparatus I engages the contact I3I so that the input of amplifier 65 is grounded to prevent any energizing signal from arising on its output to cause any operation of the gain control motor 60. This grounding circuit may be traced from the grounded tap 40 of the secondary 43 through conductor I 42, switch blade I30, switch contact I3I, conductor I43, contact 39, switch blade 31, conductor I5 3, switch contact 90, switch blade 81 to the input of amplifier 65. As the switch blade 88 is engaging contact 9| the output from the amplifier, if there is any, is fed directly to the amplifier winding 02 of the motor 60. A the blade 89 is engaging contact 02, the line winding 6| is connected to be energized by a suitable source of alternating power.

Upon an indication of a need for a change in the adjustment of the apparatus I 0, the meter 20 will operate to a predetermined position whereupon the switch 22 will be closed. If the manually operated switch 23 is in the right hand position, or the automatic position, the relay 24 is energized through a circuit that may be traced from a positive terminal I50 through the relay coil 25, conductor I5I, switch 23, switch 22, and ground back to a negative terminal I52. When the relay 24 becomes energized, the switch blade 25 moves out of engagement with the contact 20 and the switch blade 21 moves out of engagement with the contact 29 and into engagement with the contact The movement of blade 26 interrupts the energizing circuit to the transfer reand this relay moves to the deenergized position in which its switch blade 31 engages the switch contact 38.

When the transfer relay 35 is deenergized the groundin circuit'to the input of amplifier 65 is broken at contacts ,30 and 31, and an energizing signal from the network is supplied to the inputof the amplifier 65 through a circuit which 'may be traced from the slider of potentiometer 46 through the summing resistor 48,

tact as, switch blade 21, conductor m, switch contact 00, switch blade 81, to amplifier 65. The phasing of this energizing signal is such as to cause the amplifier 65 to energize the motor 60 in a direction to move the gain potentiometer slider i l away from its high limit position toward its low limit position. When slider I4 moves from the high limit position, the latch II5 of the thermal time delay relay H0 is reset into its operative position and the blade I30 moves out of engagement with its associated contact I3I.

The motor 50 continues to be energized by the amplifier 35 until it has driven the slider I4 into the low limit position: blade I22 engages contact I2t the blade I2I engages contact I23. Further, the ciectrical output signal from the apparatus i0 is reduced until there is no control signal appearing upon the output terminals I5. When the blade 2i engages contact I23, an

- energizing circuit is established to the relay step- .ping coil. I08 through a circuit that may be traced iii the energization of-the relay 85, the

of variables is selected in apparatus I0, the associated switches I05, I06, and I01 select the output from the sequentially next synchro generator I04, and the electrical signal from synchro I04 is applied to the control transformer synchro 550. If the position of the output winding I02 of the control transformer synchro I00 is not electrically aligned with that of the rotor of the generator synchro I 04, an electrical output signal appears upon winding I 02.

-Also energized when the blade I2I engages contact I23 in the low limit switching mechanism is the change-over relay 85. The energizing circuit for this relay may be traced from the positive terminal I55 through the switch contact I23, switch blade I2I, conductor I6I, switch contact 30, switch blade 21, conductor I62, coil 86, and ground back to the negative terminal I59. Upon nected to the amplifier winding 12 of the change- When the switch blade 89 engages contact 95, the alternating current power circuit for the field winding is completed.

Upon the appearance of an unbalance signal on the output winding I02 of the control transformer synchro I00, the lookout amplifier 50 operates to deenergize the lookout relay 5| so that the switch blade 53 will engage contact 54 and signal light 56 is energized through a circuit that may be traced from positive terminal I65 through switch blade 53, contact 54, lamp 56, and ground back to the negative terminal I66.

An unbalance signal is now supplied to the input of amplifier 65 from the output Winding I02, and the change-over motor 10 begins to operate, driving the rotor of the control transformer synchro to a position where it no longer supplies an unbalance signal.

moved out of engagement with contact H4. The blade is locked in this position by latch II5 until the latch is released when slider I4 reaches its high limit, as described above.

Upon the switching in of a new generator synchro signal readjustment of the shaft I2 of the control apparatus I0 takes place. Indicating instrument 20 responds to this adjustment and opens the contact 22 to deenergize the control relay 24. When the relay 24 becomes deenergized the switch blade 26 moves into engagement with contact 28 and the switch blade 21 engages contact 29. Assoon as switch blade 21 engages contact 29, a new maintaining circuit for the changeover relay is .establishedand thiscircuit may I62, relay coil 85 and grou tive terminal I66,

a high limit position or the switch blade 53, switch contact 54, conductor H0, switch contact 1-24, switch blade I22, Conductor I'H, contact 29, switch blade 21, conductor d back to the nega- When the change-over motor H1 has driven the output winding [02 to a balanced condition there no longer is an output signal upon the winding H12, and the lockout amplifier 5c reenergizes the lockout relay 5] Switch blade 53 moves out of engagement with its associated contact 54 to break the energizing circuit for the change-over relay 85 so that the latter becomes deenergized. The amplifier 65 is reconnected to the gain-control portion of the apparatus so that upon the appearance of an input signal to the amplifier 85 the gain control motor 66 may become operative. When the switch blade 53 engages contact 55 on the lookout relay 5| the energizing circuit for the transfer relay is again established so that this relay becomes energized and the switch blade 31 moves into engagement with contact 39. When blade 31 engages contact 39,1a new control signal from the network is applied to the input of amplifier 65 through a circuit which may be traced from the slider of the potentiometer through the summing resistor 41, switch contact 39, switch blade 31, conductor 144, switch contact 58 and switch blade 81 to the input of amplifier 55. The phasing of this alternating signal arising from the network, 48 when applied to the input of the amplifier 65 is such that the gain-control motor 68 runs in a direction to move the slider 14 of the gain-control potentiometer 13 to toward the left as it is shown upon the drawing,

As soon as the gain-control motor 58 has moved the slider Hi to the high limit position the high limit switching mechanism 29 is operated and the switch blade l30 becomes engaged with switch contact l3! to effectively connect the input of amplifier 65 to ground to thereby eliminate any control signal on the input thereof and effectively deen-ergize the gain-control motor 60. When the slider M engages the anism, the blade I30 in rotating in a clockwise direction is effective to release the latching mechanism H5 of the cutout device Hi3 so that the switch blade H3 may engage contact H4 and condition the apparatus for a further operation upon an indication of a need therefor by the indicator 20.

As yet, no consideration has been given to the efiect of the velocity generators 66 and 16 upon the operation of the control apparatus and the change-over mechanism. Each of these velocity generators, 66 and it, produces an electrical output signal whose phase is dependent upon the direction of rotation of the generator and whose magnitude is dependent upon the speed of rotation of the generator. In the case of the velocity generator iBwhich is driven by the change-over motor is, the outputsignal is fed into the input of amplifier when the amplifier is controlling the operation of the change-over motor 10 and serves to prevent excessive hunting and overshooting of the change-over motor as it rotates the output winding I02 of the control transformer synchro umtoward a balanced position.

In the case ofthe velocity generator 56, this generator when coupled with the input of ampliher 85 functions as a speed regulating device. When the motor to is running at the desired speed the magnitude of the control signal from the nethigh limit switching mechwork 41] and that of the output from the generator 66 are practically the same, The effect of an increase in speed of the gain-control motor 68 is an increase in output from the velocity generator 66 and the phasing of this output is such that it tends to decrease the magnitude of the difierence or control signal going into the amplifier 65. This decrease in magnitude of the control signal going into amplifier 65 has the effect of decreasing the speed of the gain-control motor 59. The magnitude of the output signal from the control network 40 can be variably selected by adjusting the potentiometer sliders of the potentiometers A5 and 46. The slider of the potentiometer 46 is generally positioned so as to cause the gain-control motor, when moving the slider [4 from the high limit position toward the low limit position to move at a fairly rapid rate. The slider of the potentiometer 45 is so positioned that the effective control signal from this portion of the network when compared with the output from the velocity generator 56 causes the gain control motor 60 to drive the slider M from the low limit position to the high limit position at a relatively slow rate, so that the output control signal appearing upon the terminals IE will not increase at a rate greater than it is possible for the control apparatus controlled by the output signal to follow. In other words, in the event that the output signal on terminals 55 is fed to an automatic pilot apparatus, the changing of the crafts attitude is gradual without any unduly rapid change in the operation of the automatic pilot.

From the foregoing it will be seen that there has been provided an automatic change-over mechanism for a control apparatus having an electrical output signal wherein that electrical output signal is eliminated while the changing over of the control apparatus is being accomplished and then the electrical output signal is returned to its new required value at a suitably slow rate after the control apparatus has been adjusted. While the present invention has been partially integrated into the subject matter of my above mentioned copending application, this has been for illustrative purposes only for it will be obvious that the present invention has application in many types of condition control art wherein changes of a condition control apparatus must be made from time to time, and where sudden changes are undesirable. Further, many modifications will be obvious to those skilled in the art and therefore I intend to be limited solely by the scope of the appended claims.

I claim:

1. Apparatus for monitoring the progress of a process in which one or more conditions are to be varied such a fashion that a quantity computed therefrom varies according to a schedule made of a series of portions each of which requires a ire-determinable adjustment of a adjustable computer element, and in each of which said second quantity varies through a range ending at a value thereof, said apparatus comprising, in combination: the first computer element; a signal receiver adapted to be connected to a signal transmitter to combalanceable network giving an output according to disagreement between the receiver and .18 transmitter; means connecting receiver tor adjustment concurrent with adjustment of said first element; a plurality of settaele transmitters pro-set in accordance with said tire-determinable adjustments of said first element; switching'means connected to-said receiver and said transmitters for successively completing a plurality of such balanceable networks including said receiver and successive ones of said transmitters; further computer elements accordance with said conditions; means actuated in accordance with the adjustments of said computer elements to give a first output proportional to the first quantity and second output proportional to the second quantity; means, in cluding an attenuator adjustable through a range between a normal condition of minimum attenuation and an operated condition of maximum attenuation, for variably supplying said first output to condition controlling means; motor means for adjusting said first element and said attenuator; means efiective when said second output assumes a value corresponding to said fixed value of said second quantity for causing said motor means to adjust said attenuator to said condition of maximum attenuation; first limit control means connected to said first actuated when said condition of maximum attenuation is reached, for preventing further adjustment of said attenuator by said motor means, for causing operation of said switching means to substitute the succeeding signal transmitter in said balanceable network, and for causing said motor means to adjust said first element and said signal transmitter in accordance with any unbalance of said network; means connected to said network and responsive to balance thereof to prevent further adjustment of said first elemeans and actuated when said condition of minimum attenuation is reached, for preventing further adjustment of said attenuator or said first element by said motor means.

2. Changeover means comprising in combination: means, including an adjustable element, for supplying a control voltage which is a function of the adjustment of said adjustable element; means, including an attenuator adjustable through a range between a normal condition of minimum attenuation and an operated condition of maximum attenuation, for variably supplying said control voltage to a utilization circuit; motor means for adjusting said element and said attenuator; means normally preventing operation of said motor means; switching means having an operated or change-over initiating condition and a normal or change-over releasing condition; means connected to said switching means and operative in the change-over initiating condition thereof to cause said motor ther adjustment of said attenuator by said motor means and to cause said motor means to adjust said adjustable element to a selected value; means actuated when said selected adjustment of said element has taken place to prevent said motor means from further adjusting said adjustable element; means connected to said switching-means andpperative in the changeover releasing condition thereof to cause said motor means to adjust said attenuator to said condition of minimum attenuation; and further limit control means connected to said motor by said motor means.

3. Change-over means comprising in combination: means, including an adjustable element, for supplying a control voltage which is a function of the adjustment of said adjustable element; a first motor for adjusting said adjustable element; means including an attenuator adjustable through a range between a normal condition of minimum attenuation and an operative condition of maximum attenuation, for variably supplying said control voltage to a utilization circuit; a second motor for adjusting said attenu ator; means normally preventing operation of said motors; switching means having an operated or change-over initiating condition and a normal or change-over releasing condition; means connected to said switching means and operative in the change-over initiating condition thereof to cause said second motor to adjust said attenuator to said condition of maximum attenuation; first limit control means connected to said motors and actuated when said attenuator reaches said condition of maximum attenuation to prevent further adjustment of said attenuator by said second motor and to cause said first motor to adjust said adjustable element to a selected value; means actuated when said selected adjustment of said element has taken place to prevent said first motor means from fur.-

ther adjusting said adjustable elements; means connected to said switching means and operative in the change-over releasing condition thereof to cause said second motor to adjust said attenuator to said condition of minimum attenuation; and further limit control means connected to said second motor and actuated when said attenuator reaches said condition of minimum attenuation to prevent further adjustment of said attenuator by said second motor.

4. Change-over means comprising in combination: an adjustable control device giving an output signal; balanceable telemetric means operable to adjust said device; an adjustable gain control connected to variably attenuate said signal; change-over control means operable upon the occurrence of need for adjusting said device means actuated by operation of said changeover control means to cause adjustment of said gain control so as to reduce said signal; means connected to said last named means, and including a first limit control actuated by said gain control when said signal is fully reduced, for preventing further adjustment of said gain control and for causing said telemetric means to be balanced, whereupon. the need for adjustment of said control device ceases; means connected to said telemetric means and responsive to balance thereof to prevent further adjustment thereof means actuable by said change-over control means, upon the cessation of said need, to cause adjustment of said gain control so as to restore said signal; and means connected to said last named means and including a second limit control actuated by said gain control when said signal is fully restored, for preventing further adiustment of said gain control.

;5. Change-over means comprising in combination: an adjustable control device giving an output signal; balanceable telemetric means operable to adjust said device; an adjustable gain control connected to variably attenuate said signal;'change-over control means operable upon the occurrence of need for adjusting said device; means actuated by operation of said change-over control means to cause adjustment of said gain control at a first selected rate so as to reduce said signal; means connected to said last named means, and including a first limit control actuated by said gain control when said signal is fully reduced, for preventing further adjustment of said gain control and for causing saidtelemetric means to be balanced, whereupon the need for adjustment of said control device ceases; means connected to said telemetric means and responsive to balance thereof to prevent further adjustment thereof; means actuated by said change-over control means, upon the cessation of said need, to cause adjustment of said gain control at a second selected rate so as to restore said signal; and means, connected to said last named means, and including a second limit control actuated by said gain control when said signal is fully restored, for preventing further adjustment of said gain control.

6. Change-over means comprising in combination: an adjustable control device giving an output signal; a telemetric receiver connected for adjustment concurrently with said control device; settable telemetric transmitting means adapted for connection to said receiver to comprise a balanceable system giving an output voltage which varies in magnitude and reverses in sense with variation in the amount and reversal in the sense of any unbalance of said system; an adjustable gain control connected to variably attenuate said signal; motor means for adjusting said control device and said gain control; means supplying first and second further output voltages of opposite senses and selectable magnitudes; change-over control means operable upon the occurrence of need for adjusting said device; means connected to said motor means and actuated by operation of said change-over control means to cause said motor means to adjust said gain control, in accordance with said i first further output voltage, so as to reduce said signal; a first limit control actuated by said gain control when said signal is fully reduced; means connected to said motor means and said first limit control and rendered operative by actuation of the latter to prevent said motor means from further adjusting said gain control, and to cause said motor means to adjust said control device in accordance with said output voltage of said balanceable system so as to rebalance said systern, whereupon the need for adjustment of said control device ceases; means connected to said motor means and said telemetric system and re sponsive to balance of the latter to prevent said motor means from further adjusting said control device; means actuable by said change-over control means upon cessation of said need, to cause said motor means to adjust said gain control, in accordance with said second further output voltage, so as to restore said signal; a second limit control actuated by said gain control when said signal is fully restored; and means connected to said motor means and said second limit control and rendered operative by actuation of the latter to prevent said motor means for further adjusting said gain control.

'1. Means for changing a constant of a computer without adversely a'fiecting apparatus energized by the output of the computer comprising, in combination: a computer including an element to be adjusted to a number of values of a constant, and giving an output signal which varies with changes in at least one variable fed to the computer; an adjustable gain control connected to vary said output signal; motor means for adjusting said element and said gain control; switching means operable to initiate change of the constant or" said computer; and sequentially operated means connected to said motor means and said switching means, and including limit control means at each end of the adjustment of said gain control, for first gradually adjusting said gain control to reduce the output signal to a minimum value and then rapidly readjusting said computer element, when said switching means is operated, and to gradually restore the output signal to full value when said switching means is thereafter released.

8. Means for changing a constant of a computer without adversely aiiecting apparatus energized by the output of the computer comprising, in combination: a computer including an element to be adjusted to a number of values of arconstant, and giving first and second output signals which vary with changes in at least one variable fed to the computer, said first output signal reaching a critical value when it is necessary to adjust said element and departing from said critical value when adjustment of said element is begun; an adjustable gain controlconnected to vary said second output signal; motor means for adjusting said element and said gain control; switching means operated when said first output signal assumes said critical value and re leased when said first output signal departs from said critical value; and sequentially operative means connected to said motor means and said switching means, and including limit control means at each end of the adjustment of said gain control, for first gradually adjusting said gain control to reduce the second output signal to a minimum value and then rapidly adjusting said computer element, when said switching means is operated, and for gradually restoring the second output signal to full value when said switching means is released by said adjustment of said computer element.

9. Means for changing a constant or a computer without adversely afiecting apparatus energized by the output of the computer comprising, in

combination: a computer including an element to be adjusted to a number of values of a constant, and giving an output signal which varies with changes in at least one variable fed to the computer; first motor means for adjusting said element; an adjustable gain control to vary said output signal; second motor means for adjusting, said gain control; switching means operable to initiate change of the constant of the computer; and sequentially operative means connected to said first and second motor means, and to said switching means, and including limit control means at each end of the adjustment of said gain control, for first causing said second motor to 1 gradually adjust said gain control to reduce the output signal to a minimum value and then causing said first motor to rapidly adjust said computer element, when said switching means is operated, and for causing said second motor to gradually restore the output signal to full value when said switching means is thereafter released.

- oscAa-nucso scam.

N 0 references cited. 

